No, these are two unrelated properties of a material.
YES IT IS. Any quantity which is ratio of two physical quantities having same unit is dimensionless. Dielectric constant is ratio of Permittivty of medium to the permittivity of free space. As Permittivity of medium and permittivity of free space both have same units(F/m ie Farad/meter) dielectric constant becomes dimensionless quantity
For an insulating material dielectric strength and dielectric loss should be respectively
dielectric strength is tested by transformer dielectric strength oil testing machine. at first, oil which is to be tested is pour near the two electrode. both the electrode should be dipped in oil . then adjust the distance between the electrode .now start the machine.when a sound came from machine then note down the dielectric strength of the oil.
dielectric constant is a property of a material, this question is asking the property of a two mixed together, in an undeclared ratio. But yes dielectric constants can be measured. The problem you will have is keeping a uniform mix.
One field in which this is helpful is in the manufacture of insulating materials. Dielectric strength determines the strongest electric field an insulator can withstand before it fails. For example, if the insulation around a wire melts or breaks, the insulator's dielectric strength is compromised.
'Dielectric constant' is an archaic term for relative permittivity. They are one and the same.
dielectric constant
dielectric constant for sodium Hypochlorite
YES IT IS. Any quantity which is ratio of two physical quantities having same unit is dimensionless. Dielectric constant is ratio of Permittivty of medium to the permittivity of free space. As Permittivity of medium and permittivity of free space both have same units(F/m ie Farad/meter) dielectric constant becomes dimensionless quantity
The dielectric constant varies, depending on the material.
For an insulating material dielectric strength and dielectric loss should be respectively
This depends on the particular dielectric. Each has a different breakdown strength.
The dielectric strength of vacuum is infinite because there is no molecule in the vacuum.
For an insulating material dielectric strength and dielectric loss should be respectively high or low
If the temperature increases, the conductivity will increase too which means the dielectric constant is reduced
it decreases in strength in meany ways for different materials for exsample, with gases if there is an increase in humidity, then it decreases the dielectric strength
infinite